Abstract
In this paper take the wind turbine blade as an example, to expound Six Sigma theories which apply to optimize fan blade structure. Based on the Six Sigma optimal design, the assembling dimension tolerance accumulative analysis is carried out, so that the blade design can improve the quality of blade design and the success rate of the assembly, then reduce the cost and improve the enterprise efficiency.
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References
X. Cai, Study on Six Sigma Optimization Design of Faucet Structure (Xiamen University, 2008)
Optimization design of aeroengine products based on Six Sigma design. Gas Turbine Exp. Res. (04), 2 (2015)
H. Ji, Y. Qu, Y. Tang, Optimization of the locking structure of plastic parts based on Six Sigma design. Mach. Des. Manuf. (10), 104–106 (2009)
Y. Wu, Information Security Risk Assessment (Tsinghua University Press, Beijing, 2007), pp. 58–59
Z. Huang, C. Liu, ANSYS Workbench14.0 Super Learning Manual (People Post Press, Beijing, 2013)
X. Zhang, Finite element modeling and lightweight design of 1.5Â MW fan blade. J. Liaoning Tech. Univ. (2015)
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Chen, Cf., Cheng, B., Li, Xy., Mo, J., Liu, Y. (2019). Using Six Sigma to Optimize Fan Blade Structure. In: Huang, G., Chien, CF., Dou, R. (eds) Proceeding of the 24th International Conference on Industrial Engineering and Engineering Management 2018. Springer, Singapore. https://doi.org/10.1007/978-981-13-3402-3_62
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DOI: https://doi.org/10.1007/978-981-13-3402-3_62
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